Image Processing Device

ABSTRACT

An image processing device is provided with a first unit, a second unit attached to the first unit rotatably around a rotational axis, flat cables connecting elements in the first unit with elements in the second unit, and a guide member having wiring paths each defined between two of separations walls, the guide member guiding, from the first unit to the second unit, the flat cables laid through the wiring paths, respectively, in a state spaced apart from each other in a thickness direction thereof without contacting each other, at least one of the separation walls including a curving wall curving to surround the rotational axis, at least one of the flat cables guided to have a curving section along the curving wall, a first extension extending continuously from the curving section to the first unit, and a second extension extending continuously from the curving section to the second unit.

CROSS-REFERENCE TO RELATED APPLICATION

This application is a continuation of U.S. patent application Ser. No.13/845,357 filed Mar. 18, 2013, which claims priority under 35 U.S.C.§119 from Japanese Patent Application No. 2012-077007 filed on Mar. 29,2012. The entire subject matter of the application is incorporatedherein by reference.

BACKGROUND

1. Technical Field

The following description relates to one or more techniques for an imageprocessing device that includes a first unit and a second unit attachedto the first unit via a hinge so as to be rotatable relative to thefirst unit.

2. Related Art

An image forming device has been known that includes a device main bodycontaining an image forming unit, and a document feeder attached to anupper side of the device main body in an openable and closable manner.

In general, the known image forming device includes a controller and apower supply unit disposed in the device main body. Further, thedocument feeder is controlled by the controller disposed in the devicemain body. Therefore, the known image forming device further includes aflat cable provided between the device main body and the document feederto establish a connection therebetween.

SUMMARY

In the meantime, a multi-function device may include, on the upper sideof a device main body, various elements to be controlled and/or acommunication device in addition to a document feeder as describedabove. In this case, a plurality of flat cables might have to beprovided between a lower unit such as the device main body (hereinafterreferred to as a first unit) and an upper unit disposed above the firstunit (hereinafter referred to as a second unit).

However, in such a case, when the plurality of flat cables are merelyarranged alongside of each other, it might lead to an enlarged spacerequired for wiring of the plurality of flat cables, and thus mightresult in problems such as an enlarged size and an undesired looking ofthe multi-function device. Meanwhile, when the plurality of flat cablesare tied or stacked into a single bundle, it might result in a problemthat noises caused in a flat cable is likely to enter into another flatcable due to the mutually contacting flat cables. Accordingly, desiredis a wiring structure for the plurality of flat cables to avoid theaforementioned problems.

Aspects of the present invention are advantageous to provide one or moreimproved techniques, for image processing devices, which make itpossible to put, into a compact-size structure, wiring paths for aplurality of flat cables laid between the first unit and the second unitand to prevent the plurality of flat cables from contacting each other.

According to aspects of the present invention, an image processingdevice is provided, which includes a first unit, a second unit attachedto the first unit via a hinge so as to be rotatable relative to thefirst unit around a rotational axis, at least one of the first unit andthe second unit containing one of an image reading unit configured readan image from an object to be read and an image forming unit configuredto form an image on a recording medium, a plurality of flat cablesconfigured to connect electrical elements disposed in the first unitwith electrical elements disposed in the second unit, and a guide memberhaving a plurality of wiring paths each defined between two of aplurality of separation walls, the guide member being configured toguide, from one to another of the first and second units, the pluralityof flat cables laid through the plurality of wiring paths, respectively,in a state spaced apart from each other in a thickness direction of theplurality of flat cables without contacting each other, at least one ofthe plurality of separation walls including a curving wall formed tocurve so as to surround the rotational axis, at least one of theplurality of flat cables being guided so as to have a curving sectionthat curves along the curving wall, a first extension that extendscontinuously from the curving section to the first unit, and a secondextension that extends continuously from the curving section to thesecond unit.

According to aspects of the present invention, further provided is animage processing device that includes a first unit, a second unitattached to the first unit so as to be rotatable relative to the firstunit around a rotational axis, a plurality of flat cables configured toconnect electrical elements disposed in the first unit with electricalelements disposed in the second unit, and a guide member having aplurality of wiring paths each defined between two of a plurality ofseparation walls, the guide member being configured to guide, from oneto another of the first and second units, the plurality of flat cableslaid through the plurality of wiring paths, respectively, in a statespaced apart from each other in a thickness direction of the pluralityof flat cables without contacting each other, at least one of theplurality of separation walls including a curving wall formed to curveso as to surround the rotational axis, at least one of the plurality offlat cables being guided so as to have a curving section that curvesalong the curving wall, a first extension that extends continuously fromthe curving section to the first unit, and a second extension thatextends continuously from the curving section to the second unit.

BRIEF DESCRIPTION OF THE ACCOMPANYING DRAWINGS

FIG. 1A is a perspective view showing a multi-function peripheral when areading unit is in a closed position in an embodiment according to oneor more aspects of the present invention.

FIG. 1B is a perspective view showing the multi-function peripheral whenthe reading unit is in an open position in the embodiment according toone or more aspects of the present invention.

FIG. 2 is a vertical cross-sectional view showing an internalconfiguration of a main body unit in the embodiment according to one ormore aspects of the present invention.

FIG. 3 is a vertical cross-sectional view showing an internalconfiguration of the reading unit in the embodiment according to one ormore aspects of the present invention.

FIG. 4 is an enlarged perspective view showing a part of themulti-function peripheral around a guide member in the embodimentaccording to one or more aspects of the present invention.

FIG. 5 is an enlarged exploded view showing the guide member of themulti-function peripheral in the embodiment according to one or moreaspects of the present invention.

FIG. 6 is a perspective view showing a wiring state of flat cablesaround the guide member in the embodiment according to one or moreaspects of the present invention.

FIG. 7A is a side view showing respective positions of the flat cablesin a state where the reading unit is in the closed position when viewedfrom the side of a left side surface in the embodiment according to oneor more aspects of the present invention.

FIG. 7B is a side view showing respective positions of the flat cablesin a state where the reading unit is in the open position when viewedfrom the side of the left side surface in the embodiment according toone or more aspects of the present invention.

FIG. 8 is a block diagram schematically showing an electricalconfiguration of the multi-function peripheral in the embodimentaccording to one or more aspects of the present invention.

DETAILED DESCRIPTION

It is noted that various connections are set forth between elements inthe following description. It is noted that these connections in generaland, unless specified otherwise, may be direct or indirect and that thisspecification is not intended to be limiting in this respect.

Hereinafter, an embodiment according to aspects of the present inventionwill be described in detail with reference to the accompanying drawings.It is noted that, in the following description, a front side, a rearside, a left side, a right side, an upside, and a downside of amulti-function peripheral 1 of the embodiment will be defined asindicated in the accompanying drawings, merely for the sake ofexplanatory convenience.

[Configuration of Multi-Function Peripheral]

As shown in FIGS. 1A and 1B, the multi-function peripheral 1 includes amain body unit 2, and a reading unit 3 disposed above the main body unit2. The main body unit 2 includes thereinside an image forming unit 10(see FIG. 2), a controller 8, and a power supply unit 9 (see FIG. 8).Further, the reading unit 3 includes a document table 3A and a documentcover 3B. The document table 3A includes thereinside a first imagereading unit and a facsimile communication unit 19 (see FIG. 8). Inaddition, the document cover 3B includes thereinside a second imagereading unit and an automatic document feeder (ADF) (see FIG. 8).Various electrical elements (such as the aforementioned elements)provided to the main body unit 2 and the reading unit 3 are controlledby the controller 8 disposed inside the main body unit 2.

The reading unit 3 is configured to rotate relative to the main bodyunit 2 around a rotational center axis, which extends in a left-to-rightdirection near an upper rear portion of the main body unit 2. Along withthe rotation, the reading unit 3 moves between a closed position shownin FIG. 1A and an open position shown in FIG. 1B.

When the reading unit 3 is rotated and moved to the open position, anopening 2A provided at an upper side of the main body unit 2 is opened(exposed to the outside of the multi-function peripheral 1). Thus, inthis state, it is possible to do maintenance for the elements (such asthe image forming unit 10, the controller 8, and the power supply unit9) disposed inside the main body unit 2. Meanwhile, when the readingunit 3 is rotated and moved to the closed position, the reading unit 3serves as a cover for covering the opening 2A.

Further, in the reading unit 3, the document cover 3B is configured torotate relative to the document table 3A around a rotational centeraxis, which extends in the left-to-right direction near an upper rearportion of the document table 3A. When the document cover 3B is rotatedand moved to an open position, a contact glass provided at an upper sideof the document table 3A is exposed to the outside of the multi-functionperipheral 1. Thereby, a document sheet to be read is allowed to beplaced on the contact glass. Meanwhile, when rotated and moved to aclosed position, the document cover 3B is put into a state to cover thecontact glass.

There is a feed cassette 4 attached to a lower portion of the main bodyunit 2. The feed cassette 4 is configured to accommodate recordingmedium to be supplied for printing. At a front side of the reading unit3, an ejection port 5 is formed to allow a user to take out printedsheets. Above the ejection port 5, there is disposed an operation panel6 for accepting user operations therethrough.

Next, the image forming unit 10 of the multi-function peripheral 1 willbe described. In the multi-function peripheral 1, the image forming unit10 as shown in FIG. 2 is incorporated inside the main body unit 2. Theimage forming unit 10 is a tandem-type image forming device configuredto electrophotographically form an image. The image forming unit 10includes a feeding unit 11, a belt unit 12, process cartridges 13, LEDunits 14, a fuser 15, and an ejection unit 16.

The feeding unit 11 is configured to feed the recording medium (such asrecording sheets) held in the feed cassette 4 to a downstream side of afeeding path (indicated by a long dashed double-short dashed line inFIG. 2).

The belt unit 12 is configured to convey from front to back therecording medium fed by the feeding unit 11 while pinching the recordingmedium with the process cartridges 13. The process cartridges 13 arefour cartridges tandemly arranged at regular intervals above the beltunit 12. Each process cartridge 13 includes a photoconductive body and adevelopment unit for developing an electrostatic latent image formed onthe photoconductive body.

The LED units 14 are four units tandemly arranged at regular intervalsto correspond so as to the process cartridges 13, respectively. Each LEDunit 14 is configured to irradiate the photoconductive body of acorresponding process cartridge 13 with light and form the electrostaticlatent image on the photoconductive body. The electrostatic latent imageformed on the photoconductive body by each LED unit 14 is developed bythe development unit of the corresponding process cartridge 13 toproduce a toner image. Then, the toner image is transferred onto therecording medium on the belt unit 12. The LED units 14 are attached to abottom surface of the reading unit 3. Therefore, when the reading unit 3is rotated and moved to the open position (see FIG. 1B), the LED units14 is moved upward together with the reading unit 3 to be farther awayfrom the process cartridges 13.

The fuser 15 is configured to thermally fix the toner image onto therecording medium by heating and pressing the recording medium with thetoner image transferred thereon while pinching the recording mediumbetween rollers. After passing through the fuser 15, the recordingmedium is ejected from the ejection unit 16. Thus, the user is allowedto take out the recording medium from the ejection port 5.

Subsequently, explanations will be provided about the first imagereading unit, the second image reading unit, and the ADF unit of themulti-function peripheral 1. In the multi-function peripheral 1, asshown in FIG. 3, the reading unit 3 includes a first image sensor 17Athat forms the first image reading unit, and a second image sensor 17Bthat forms the second image reading unit. The first image sensor 17A isdisposed at the side of the document table 3A and is configured toreciprocate along the left-to-right direction. In addition, the secondimage sensor 17B is tightly attached to a frame at the side of thedocument cover 3B.

Further, the document cover 3B includes a feeding mechanism 18incorporated therein, which forms the ADF unit. The feeding mechanism 18is configured to feed a document sheet along a predetermined feedingpath (indicated by a dashed line in FIG. 3). The feeding mechanism 18includes a plurality of rollers and a guide member for guiding thedocument sheet fed by the rollers along the aforementioned feeding path.

The reading unit 3 configured as above is usable as a flatbed-type imagescanner and an ADF-type image scanner as well. When utilized as theflatbed-type image scanner, the reading unit 3 reads an image of thedocument sheet with the first image sensor 17A. Further, when utilizedas the ADF-type image scanner, the reading unit 3 is allowed to read animage from one side of the document sheet with one of the first imagesensor 17A and the second image sensor 17B or read images from bothsides of the document sheet with both the first image sensor 17A and thesecond image sensor 17B.

[Wiring Structure For Flat Cables]

Subsequently, an explanation will be provided about a wiring structureof flat cables provided between the main body unit 2 and the readingunit 3.

In the multi-function peripheral 1, as shown in FIG. 4, a guide member21 is disposed near an upper rear left end of the main body unit 2. Asshown in FIG. 5, the guide member 21 includes a partition section 25formed integrally with a hinge member 23, and a side cover 27 detachablyattached to the partition section 25.

FIG. 4 shows a state where the side cover 27 is attached to thepartition section 25. FIG. 5 shows a state where the side cover 27 isdetached from the partition section 25. The partition section 25includes two projections 25A (see FIGS. 5, 7A, and 7B). Meanwhile, theside cover 27 includes two holes 27A (see FIG. 5). When the side cover27 is attached to the partition section 25, each of the projections 25Ais engaged with a corresponding one of the holes 27A, and the side cover27 is tightly attached to the partition section 25.

In order to attach the reading unit 3 to the main body unit 2 to berotatable relative to the main body unit 2, the hinge member 23 istightly attached to the reading unit 3 and attached to a shaft (notshown) fixed to the main body unit 2. Specifically, when the shaft (notshown) fixed to the main body unit 2 is clipped by a bearing portion 23Aof the hinge member 23, the reading unit 3 is rotatably attached to themain body unit 2. Although the following configuration is not shown inany drawings, another hinge member 23 is provided near an upper rearright end of the main body unit 2. Thus, the reading unit 3 is supportedby the two hinge members 23 so as to be rotatable relative to the mainbody unit 2.

The partition section 25 includes a first partition wall 31, a secondpartition wall 32, a third partition wall 33, a fourth partition wall34, a fifth partition wall 35, and a shaft portion 36. Theaforementioned two projections 25A are formed on the first partitionwall 31 and the fifth partition wall 35, respectively. Further, thesecond partition wall 32 and the third partition wall 33 include curvingwalls 32A and 33A, respectively. The curving walls 32A and 33A areformed to curve so as to surround the rotational center of the readingunit 3 rotatable relative to the main body unit 2. In this regard, it isnoted that although the rotational center of the reading unit 3 islocated at an inner circumferential side of the curving walls 32A and33A, a center of curvatures of the curving walls 32A and 33A is slightlydeviated from the rotational center of the reading unit 3 rotatablerelative to the main body unit 2.

More specifically, in the embodiment, the curving walls 32A and 33A areformed concentrically around the shaft portion 36 when viewed from theleft side defined in FIG. 5. In other words, the shaft portion 36 isformed in a position coincident with the center of curvatures of thecurving walls 32A and 33A. In this respect, however, the shaft portion36 is not located in a position coincident with the rotational center ofthe reading unit 3 rotatable relative to the main body unit 2.

Namely, the curving walls 32A and 33A are formed to curve so as tosurround the rotational center of the reading unit 3 rotatable relativeto the main body unit 2, but it does not mean that the rotational centerof the reading unit 3 rotatable relative to the main body unit 2 ispositionally coincident with the center of curvatures of the curvingwalls 32A and 33A. Of course, the rotational center of the reading unit3 rotatable relative to the main body unit 2 may be positionallycoincident with the center of curvatures of the curving walls 32A and33A. However, in the embodiment, the rotational center of the readingunit 3 rotatable relative to the main body unit 2 is intentionallydeviated from the center of curvatures of the curving walls 32A and 33A.Advantageous effects of such a configuration will be described later.

Meanwhile, as shown in FIG. 5, the side cover 27 is formed integrallywith two protruding sections 37 and 38 and a curving wall 39 thatprotrude toward the first to fifth partition walls 31 to 35. Theaforementioned two holes 27A are formed in the protruding sections 37and 38, respectively.

In the embodiment, there are four wiring paths defined by the firstpartition wall 31, the second partition wall 32, the third partitionwall 33, the fourth partition wall 34, and the fifth partition wall 35of the partition section 25 and the curving wall 39 of the side cover27. Specifically, a first wiring path 41 is defined between the firstpartition wall 31 with the curving wall 39 and the second partition wall32. A second wiring path 42 is defined between the second partition wall32 and the third partition wall 33. A third wiring path 43 is definedbetween the third partition wall 33 and the fourth partition wall 34. Afourth wiring path 44 is defined between the fourth partition wall 34and the fifth partition wall 35. Although not shown in FIGS. 6, 7A, and7B, the curving wall 39, in collaboration with the first partition wall31, forms the first wiring path 41 between the first partition wall 31(with the curving wall 39) and the second partition wall 32, in a statewhere the side cover 27 is attached to the partition wall 25. Namely,the curving wall 39 is disposed in a position farther away from theshaft portion 36 than the curving wall 32A, so as to form a spacebetween the curving wall 39 and the curving wall 32A. The formed spaceis utilized as the first wiring path 41. It is noted that the center ofcurvature of the curving wall 39 is positionally coincident with theshaft portion when the side cover 27 is attached to the partitionsection 25.

As shown in FIG. 6, the four wiring paths 41 to 44 is configured to holda plurality of flat cables 51 to 54 laid therethrough to establishelectrical connections between the main body unit 2 and the reading unit3. The plurality of flat cables 51 to 54 are laid through the fourwiring paths 41 to 44, respectively, on a one-to-one basis. Thereby, theflat cables 51 to 54 are laid in a state spaced apart from each other ina thickness direction of the flat cables 51 to 54 without contactingeach other.

In such a wiring configuration as above, the flat cables 51, 52, and 53are put into such wiring states as to form curving sections 51A, 52A,and 53A, respectively, which curve along the curving walls 32A and 33A.In addition, the flat cables 51, 52, and 53 include first extensions51B, 52B and 53B that extend continuously from the curving sections 51A,52A, and 53A toward the main body unit 2, respectively. Further, theflat cables 51, 52, and 53 include second extensions 51C, 52C and 53Cthat extend continuously from the curving sections 51A, 52A, and 53Atoward the reading unit 3, respectively. The first extensions 51B, 52B,and 53B of the flat cables 51, 52, and 53 are connected with a controlboard 55 provided in the main body unit 2. Moreover, the flat cables 51to 54 are connected with a control board provided in the reading unit 3to control the image sensors 17A and 17B that respectively form thefirst and second reading units, a modem that forms the facsimilecommunication unit 19, and the LED unit 14.

[Operations and Advantageous Effects]

In the multi-function peripheral 1 configured as above, when the readingunit 3 is rotated relative to the main body unit 2 and moved to theclosed position or the open position, the flat cables 51 to 54 are movedand put into a state as shown in FIG. 7A or 7B. At this time, the flatcables 51 to 54 are moved without contacting each other whilemaintaining the state spaced apart from each other in the thicknessdirection thereof. Therefore, unlike when the partition section 25 isnot provided, it is possible to prevent or suppress noises of signallines in the flat cables 51 to 54 caused due to contact between flatcables.

Further, it is possible to achieve a more compact space required forlaying the flat cables 51 to 54 than when the plurality of flat cables51 to 54 are arranged in parallel to be spaced apart from each other ina width direction thereof.

Further, the flat cables 51, 52, and 53 are guided by the wiring pathsalong the curving walls 32A and 33A that curve to surround therotational center of the reading unit 3. Therefore, even when thereading unit 3 is rotated relative to the main body unit 2, the curvingsections 51A, 52A, and 53A are not greatly displaced. Thus, it ispossible to better prevent the flat cables 51, 52, and 53 from beingexcessively pulled or excessively sagging than when the flat cables 51,52, and 53 are laid in positions far away from the rotational center ofthe reading unit 3.

Further, the guide member 21 includes the side cover 27 detachablyattached to a side face of the partition section 25 that is parallel toboth an extending direction and the thickness direction of the flatcables 51 to 54. Therefore, when the side cover 27 is detached, the flatcables 51 to 54 is allowed to be easily put into and easily removed fromthe wiring paths 41 to 44 while moved along the width direction of theflat cables 51 to 54.

Accordingly, it is possible to more easily lay the flat cables 51 to 54in the wiring paths 41 to 44 in an assembling process in comparison withsuch a configuration that the flat cables 51 to 54 have to be moved in alongitudinal direction thereof along the wiring paths 41 to 44 in orderto put the flat cables 51 to 54 into the wiring paths 41 to 44 or removethe flat cables 51 to 54 from the wiring paths 41 to 44. Further, it ispossible to more easily remove the flat cables 51 to 54 from the wiringpaths 41 to 44 in a maintenance operation.

In the meantime, as described before, the center of curvatures of thecurving walls 32A and 33A is slightly deviated from the rotationalcenter of the reading unit 3 rotatable relative to the main body unit 2.Thereby, when the reading unit 3 is moved from the closed position (seeFIG. 7A) to the open position (see FIG. 7B), a distance between an outercircumferential surface of the curving wall 32A and the main body unit 2is enlarged from a distance D1 shown in FIG. 7A to a distance D2 shownin FIG. 7B.

Namely, the center of curvature of the curving wall 32A is set in such aposition as to move upward near the rotational center of the readingunit 3 when the reading unit 3 is moved from the closed position to theopen position. Accordingly, when the guide member 21 includes thecurving wall 32A formed in the aforementioned position, even though thereading unit 3 is moved from the closed position to the open position, awidth of the first wiring path 41 formed at the outer circumferentialside of the curving wall 32A is not rendered narrower. Thus, there is noconcern that the flat cable 51 might be pinched between the outercircumferential surface of the curving wall 32A and the main body unit2.

Hereinabove, the embodiment according to aspects of the presentinvention has been described. The present invention can be practiced byemploying conventional materials, methodology and equipment.Accordingly, the details of such materials, equipment and methodologyare not set forth herein in detail. In the previous descriptions,numerous specific details are set forth, such as specific materials,structures, chemicals, processes, etc., in order to provide a thoroughunderstanding of the present invention. However, it should be recognizedthat the present invention can be practiced without reapportioning tothe details specifically set forth. In other instances, well knownprocessing structures have not been described in detail, in order not tounnecessarily obscure the present invention.

Only an exemplary embodiment of the present invention and but a fewexamples of their versatility are shown and described in the presentdisclosure. It is to be understood that the present invention is capableof use in various other combinations and environments and is capable ofchanges or modifications within the scope of the inventive concept asexpressed herein. For example, the following modifications are possible.It is noted that, in the following modifications, the sameconfigurations as exemplified in the aforementioned embodiment will beprovided with the same reference characters, and explanations about themwill be omitted.

(Modification)

In the aforementioned embodiment, the multi-function peripheral 1 isexemplified, which includes the first and second image reading units,the facsimile communication unit 19, and the ADF provided at the side ofthe reading unit 3. However, the reading unit 3 may have an electricalconfiguration different from the above configuration. For instance, thereading unit 3 may be configured without at least one of the electricalelements such as the first and second image reading units, the facsimilecommunication unit 19, and the ADF. Further, the reading unit 3 mayinclude another electrical element in addition to the first and secondimage reading units, the facsimile communication unit 19, and the ADF.Even in such a case, when a plurality of flat cables are arrangedbetween the main body unit 2 and the reading unit 3, aspects of thepresent invention may be applied.

In the aforementioned embodiment, the four wiring paths 41 to 44 areformed by utilizing the guide member 21. In this respect, however, thenumber of the wiring paths is not limited to “four,” and any number maybe applied as the number of the wiring paths. When two or more wiringpaths are required to be formed, aspects of the present invention may beapplied. It is noted that one or more partition walls may be formed todefine two or more wiring paths. Namely, with respect to each partitionwall formed, two regions separated thereby may be utilized as wiringpaths. In other words, it is optional whether to utilize as a wiringpath a region of which two sides are defined by partition walls or aregion of which only one side is defined by a partition wall.

Further, even when three or more regions are separated or defined by aplurality of partition walls, it is optional whether to utilize all thethree or more regions as wiring paths. For instance, when two or moreregions are arbitrarily selected from among the three or more regionsand utilized as wiring paths, the remaining region(s) may be utilizedfor another purpose other than the use as wiring paths, or may notnecessarily be used.

In the aforementioned embodiment, the image processing device configuredas a multi-function peripheral is exemplified. However, it is optionalwhether the image processing device according to aspects of the presentinvention is to be configured as a multi-function peripheral. Aspects ofthe present invention may be applied to a single-function device such asa single-function image reading device, a single-function image formingdevice, a copy machine, or a facsimile machine.

What is claimed is:
 1. An image processing device comprising: a firstunit; a second unit attached to the first unit via a hinge so as to berotatable relative to the first unit around a rotational axis, at leastone of the first unit and the second unit containing an image readingunit configured read an image from an object to be read; a plurality offlat cables configured to connect electrical elements disposed in thefirst unit with electrical elements disposed in the second unit; and aguide member having a plurality of wiring paths each defined between twoof a plurality of separation walls, the guide member being configured toguide, from one to another of the first and second units, the pluralityof flat cables laid through the plurality of wiring paths, respectively,in a state in which the plurality of flat cables are spaced apart fromeach other in a thickness direction of the plurality of flat cableswithout contacting each other, at least one of the plurality ofseparation walls comprising a curving wall curved to surround therotational axis, at least one of the plurality of flat cables beingguided to have a curving section that curves along the curving wall. 2.The image processing device according to claim 1, wherein the at leastone of the plurality of flat cables is guided to further have: a firstextension that extends continuously from the curving section to thefirst unit; and a second extension that extends continuously from thecurving section to the second unit.
 3. The image processing deviceaccording to claim 1, wherein the guide member is disposed on an outerside of the hinge in a direction along the rotational axis.
 4. The imageprocessing device according to claim 1, wherein the guide membercomprises a side cover detachably attached to a side face thereof thatis substantially parallel to an extending direction and the thicknessdirection of the plurality of flat cables.
 5. The image processingdevice according to claim 4, wherein the side face is positioned at anend of the guide member in a direction along the rotational axis.
 6. Theimage processing device according to claim 4, wherein when the sidecover is detached from the side face of the guide member, the pluralityof flat cables are allowed to be put into and removed from the pluralityof wiring paths while being moved along a width direction of theplurality of flat cables.
 7. The image processing device according toclaim 4, wherein the side cover comprises the curving wall formedintegrally with the side cover.
 8. An image reading processorcomprising: a first unit; a second unit attached to the first unit via ahinge so as to be rotatable relative to the first unit around arotational axis, at least one of the first unit and the second unitcontaining one of an image reading unit configured read an image from anobject to be read and an image forming unit configured to form an imageon a recording medium; a plurality of flat cables configured to connectelectrical elements disposed in the first unit with electrical elementsdisposed in the second unit; and a guide member having a plurality ofwiring paths each defined between two of a plurality of separationwalls, the guide member being configured to guide, from one to anotherof the first and second units, the plurality of flat cables laid throughthe plurality of wiring paths, respectively, at least one of theplurality of separation walls comprising a curving wall curved tosurround the rotational axis, at least one of the plurality of flatcables being guided to have: a curving section that curves along thecurving wall; a first extension that extends continuously from thecurving section to the first unit; and a second extension that extendscontinuously from the curving section to the second unit, wherein theguide member comprises a side cover formed to face the curving wall in adirection substantially perpendicular to an extending direction and thethickness direction of the plurality of flat cables.
 9. The imagereading processor according to claim 8, wherein the side cover isdetachably attached to the curving wall, and wherein when the side coveris detached from the curving wall, the plurality of flat cables areallowed to be put into and removed from the plurality of wiring pathswhile being moved along a width direction of the plurality of flatcables.
 10. An electronic device comprising: a first unit configured toaccommodate a controller; a second unit attached to the first unit via ahinge so as to be rotatable relative to the first unit around arotational axis, the second unit being configured to accommodate aplurality of electronic components; a plurality of cables configured toconnect the controller disposed in the first unit with the plurality ofelectronic components disposed in the second unit; and a guide memberhaving a plurality of wiring paths each defined between two of aplurality of separation walls, the guide member being configured toguide, from one to another of the first and second units, the pluralityof cables laid through the plurality of wiring paths, respectively, theguide member comprising: a curving portion curved to protrude outwardand surround the rotational axis; and a side portion configured to facethe curving portion in a direction along the rotational axis and coverthe plurality of cables, wherein at least one of the plurality of cablesbeing guided to have: a curving section that curves along the curvingportion, inside the guide member; a first extension that extendscontinuously from the curving section to the first unit; and a secondextension that extends continuously from the curving section to thesecond unit, and wherein the curving portion of the guide member iscurved to protrude opposite to a direction toward the controller,relative to the first extension and the second extension.
 11. Theelectronic device according to claim 10, wherein at least one of theplurality of separation walls of the guide member comprises a curvingwall curved to surround the rotational axis.
 12. The electronic deviceaccording to claim 10, wherein the plurality of cables comprise one ormore flat cables.
 13. The electronic device according to claim 10,wherein the guide member is disposed on an outer side of the hinge inthe direction along the rotational axis.
 14. The electronic deviceaccording to claim 10, further comprising an exterior cover configuredto cover the side portion of the guide member from an outside of theguide member.